Direct electric curing of alkali-activated fly ash concretes: a tool for wider utilization of fly ashes

Kovtun, Maxim; Shekhovtsova, Julia; Kearsley, Elsabé P.

doi:10.1016/j.jclepro.2016.05.098

Cited by 52 publications

(13 citation statements)

References 37 publications

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“…Bakharev (2005) [28] observed that fly ashes activated with NaOH had more stable strength properties at later ages than fly ashes activated with sodium silicate. Previous work revealed that the NaOH present in the alkali activator provided an adequate conductive medium for generating heat in accelerated curing of NaOH-activated fly ash concretes [29].…”

Section: The Limitations Encountered During the Heated Plate Curing Tmentioning

confidence: 99%

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Confined-Direct Electric Curing of NaOH-activated fly ash based brick mixtures under free drainage conditions: Part 1. Factorial experimental design

Ziolkowski

2017

Construction and Building Materials

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The utilisation of fly ash is a global concern. Under conditions of mass production and rapid turnover in automated plants, a reduction in the curing duration of alkali-activated fly ash based mixtures is sought-after. An alternative accelerated curing technique, confined-DEC (Direct Electric Curing), with the binding mechanism of NaOH activation of fly ash was investigated for the rapid manufacture of fly ash based bricks. This concept is a potentially viable alternative solution for high-volume fly ash utilisation. The investigation revealed that the confined-DEC technique shows great promise in the rapid accelerated curing of NaOH-activated fly ash based brick mixtures. The best induced design conditions, a mixture consisting of 4.1% NaOH, 9% water and 86.9% fly ash by weight, simultaneously subjected to a confining pressure of 10 MPa and a voltage gradient of 0.8 V/mm, obtained a compressive strength of 11.5 MPa in 7 minutes and the mixture continued to increase in compressive strength after the application of confined-DEC, acquiring a compressive strength *Revised Manuscript of 20.1 MPa at 28 days. The investigation also revealed the limitations of confined-DEC under free drainage conditions.

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Section: The Limitations Encountered During the Heated Plate Curing Tmentioning

confidence: 99%

“…The electric current will induce the heating mechanism (Joule heating [29] and taking part in the alkali activation of fly ash [35]. There is a critical range for the conductivity of the alkaline solution in order for Joule heating to be effective.…”

Section: Response Variable and Variable Level Selectionmentioning

confidence: 99%

Confined-Direct Electric Curing of NaOH-activated fly ash based brick mixtures under free drainage conditions: Part 1. Factorial experimental design

Ziolkowski

2017

Construction and Building Materials

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“…Fly ash is a by-product from coal combustion, however the demand for fly ash as a construction material is increasing. Nonetheless, there are still many countries where efficient utilisation of fly ash is a major problem with as little as 7% being used effectively [25]. Slag is a by-product of steel manufacture and is produced when blast furnace slag is cooled rapidly in water resulting in glassy granules, these are then ground to form a fine powder [26].…”

Section: Introductionmentioning

confidence: 99%

Effect of slag content and activator dosage on the resistance of fly ash geopolymer binders to sulfuric acid attack

Aiken

Kwasny

Sha

et al. 2018

Cement and Concrete Research

226

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Geopolymer (GP) binders are an appealing alternative to Portland cement (PC) binders as they have the potential to reduce the CO 2 emissions associated with the cement and concrete industry. However, their durability in aggressive environments needs thorough examination if they are to become a viable alternative to traditional Portland cement (PC) materials. This study investigated the effect of increasing slag content and activator dosage on the sulfuric acid resistance of fly ash GP binders. Their performance was also compared with that of neat PC mixes using various physical and microstructural techniques. The results show that increasing the slag content of fly ash GPs decreases porosity, but makes the reaction products more susceptible to sulfuric acid attack. It was also found that increasing the alkaline activator dosage of fly ash GPs has little impact on sulfuric acid resistance. Finally, GP binders displayed superior sulfuric acid resistance than their PC counterparts.

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“…In 2014, 70% of the PFA produced in the UK was used in the manufacture of construction materials [21]. Nonetheless there are approximately 114 million tonnes of PFA stockpiled accessibly in the UK [22] and in many countries around the world utilisation of PFA is a major problem with as little as 7% being utilised effectively [23].…”

Section: Introductionmentioning

confidence: 99%

Resistance of geopolymer and Portland cement based systems to silage effluent attack

Aiken

Sha

Kwasny

et al. 2017

Cement and Concrete Research

100

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Abstract:Traditional Portland cement (PC) concrete has been used for many years in the agricultural industry for the construction of silos and silage effluent storage facilities. However, the acidic nature of the silage effluent produced by silage has led to severe degradation of PC concrete which in turn has significant environmental and financial implications. This study compares the resistance of PC and geopolymer (GP) mortars and pastes to silage effluent over 12 months. The GP samples displayed increased resistance to silage effluent in terms of mass and strength loss. Analysis of microstructure suggests that the increased stability of the reaction products is the main factor behind increased silage effluent resistance when compared with PC. It was also found that pulverised fuel ash (PFA) and ground granulated blast furnace slag (GGBS) blends with a higher PFA content may offer increased long term silage effluent resistance due to the nature of the main binder gel produced in PFA dominant systems.

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Direct electric curing of alkali-activated fly ash concretes: a tool for wider utilization of fly ashes

Cited by 52 publications

References 37 publications

Confined-Direct Electric Curing of NaOH-activated fly ash based brick mixtures under free drainage conditions: Part 1. Factorial experimental design

Confined-Direct Electric Curing of NaOH-activated fly ash based brick mixtures under free drainage conditions: Part 1. Factorial experimental design

Effect of slag content and activator dosage on the resistance of fly ash geopolymer binders to sulfuric acid attack

Resistance of geopolymer and Portland cement based systems to silage effluent attack

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